Fluorescence and CD studies on the conformation of the gastrin releasing peptide in solution and in the presence of model membranes

Abstract

The conformation of the heptacosapeptide hormone, gastrin releasing peptide, has been studied in buffer and in the presence of lipids, using static and dynamic fluorescence and CD. The results obtained show that, in buffer, the hormone exists in a collection of flexible, random coil type conformers, characterized by a β-turn between residues 14-19. On the other hand, organic solvents can induce some degree of ordered secondary structure in the peptide chain. The marked changes, observed in CD and fluorescence spectra upon addition of lysolecitin micelles and dimyristoylphosphatidylserine vesicles, clearly show that the peptide interacts with lipids, assuming a lipid specific configuration. Interestingly, no significative spectroscopic changes are produced by exposure to dimyristoylphosphatidylcholine vesicles both in the gel and liquid-chrystalline phases, suggesting a requirement for negatively charged lipids during the process of hormone–membrane interaction.